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Mineral Key to Plate Tectonics’ Global Cooling Impact

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mineral-key-to-plate-tectonics-global-cooling-im

In a recent study from MIT, scientists have discovered that a mineral produced by plate tectonics has a significant global cooling effect. This mineral, called glaucophane, absorbs carbon dioxide and helps regulate Earth’s climate. The findings shed light on the role of plate tectonics in climate change, highlighting the intricate interplay between geology and the environment.

The study reveals that glaucophane, formed in subduction zones where one tectonic plate dives beneath another, plays a crucial role in removing carbon dioxide from the atmosphere. This mineral acts as a natural carbon sink, sequestering greenhouse gases and mitigating global warming. By studying the distribution and behavior of glaucophane, scientists aim to better understand the Earth’s carbon cycle and improve climate change predictions.

Furthermore, the research suggests that plate tectonics not only shape the Earth’s surface but also regulate its temperature. The interaction between tectonic processes and climate dynamics is a complex yet fundamental aspect of Earth’s environmental systems. Understanding the role of minerals like glaucophane provides valuable insights into past climate conditions and aids in modeling future climate scenarios.

Ultimately, this study underscores the intricate relationship between geological processes and climate regulation, highlighting the multifaceted impact of plate tectonics on global cooling mechanisms.

Read the full story by: MIT News